Abstract: A protection apparatus for a load cell having a constrained end portion and a movable end portion and a load detection apparatus incorporating the same are provided. The protection apparatus includes a housing having a longitudinal axis with a first end and a second end, a pivot disposed through the housing and located in a plane perpendicular to the longitudinal axis of the housing, and a sensor mount pivotally disposed on the pivot. The protection apparatus through its pivot transfers away from the load cell forces that are not aligned with a direction in which the load cell operates. The sensor mount has a first end and a second end, the first end of the sensor mount is disposed in the first end of the housing between a first position and a second position defined by the housing. The second end is configured for attachment to the movable end portion of the load cell. At least one spring is disposed in the second end of the housing for constraining the constrained end portion of the load cell.

Abstract: A non-contact sensor assembly measures an in-line driving thrust force that is applied to a rotating shaft. The sensor assembly includes a hollow torque-shaft with a magnetoelastic element and a thrust shaft that is inserted within the hollow torque-shaft. Keys are formed on thrust shaft and keyways are formed on the hollow torque-shaft. The keys are received within the keyways to lock the thrust shaft and hollow torque-shaft together but still permit a small amount of axial movement between the shafts. Helical spline recesses are formed on the thrust shaft and corresponding spline projections are formed on the hollow torque-shaft. The projections are received within the recesses to translate the thrust force into a twisting force. A magnetometer cooperates with the magnetoelastic element to measure the amount of twisting force and determine the amount of thrust force.

Abstract: A system 10 for continuously monitoring the integrity of a structure 14 includes a sensor pad 16 having a surface 18. The surface 18 is provided with a set of first channels 22 and interspersed second channels 24. Surface 18 is sealed onto the surface 12 of structure 14 so that the channels 22, 24 together with surface 12 form respective sets of first and second cavities 26 and 28. The first cavities 26 are placed in fluid communication with a vacuum source 101 via a third channel 30. The second cavities 28 are vented to the atmosphere via a fourth channel 34, through hole 35, and conduit 36. A high impedance 102 is placed in series between the vacuum source 101 and the first cavities 26. A differential pressure transducer 103 is connected across the high impedance 102 and monitors for change in vacuum condition between the vacuum source 101 and the vacuum in the cavities 26.

Abstract: A method tests a ceramic socket insert of a hip joint endoprosthesis in which, in use, a spherical head articulates against a functional inner surface of a ceramic socket insert which is anchored in a pelvic bone by means of a socket housing. The method includes providing the ceramic socket insert in a holding arrangement, applying a predetermined pressing force to a predetermined sub-area of the functional inner surface of the ceramic socket insert, and applying a supporting force to a sub-area of an outer surface of the ceramic socket insert to counteract the pressing force. The predetermined sub-area of the functional inner surface symmetrically surrounds a pole of the inner surface of a ceramic socket insert. The predetermined force is such that stresses generated in the ceramic socket insert are higher than stresses generated in the case of a physiological load.

Abstract: The invention relates to a method and apparatus for measuring the tension of a moving web. In the invention, a measuring beam (2)is curved so that a web moving over or under the measuring beam (2) forms an air cushion (3) of the air it transports between the measuring beam (2) and the web (1). The web (1) causes a force effect transmitted by the air cushion on the measuring beam (2). The tension of the web (1) is measured by measuring the force caused by the web (1) and transmitted by the measuring beam (2).

Abstract: A device to monitor and quantify the tension and compression forces acting on a well logging instrument string during deployment. The device eliminates the undesirable effects of downhole hydrostatic pressure on the sensors, and eliminates the need for a costly, complex, and high maintenance hydraulic pressure equalizing system in the force gage assembly. The device provides improved measurement accuracy, provides enhanced reliability and longer life of the sensors, and allows lower cost of manufacture and maintenance.